Tiling a tubule: How increasing complexity improves the yield of self-limited assembly

Autor: William Rogers, Botond Tyukodi, Thomas Videbaek, Michael Hagan, Daichi Hayakawa, Huang Fang
Rok vydání: 2021
Předmět:
Zdroj: J Phys Condens Matter
DOI: 10.48550/arxiv.2111.04717
Popis: The ability to design and synthesize ever more complicated colloidal particles opens the possibility of self-assembling a zoo of complex structures, including those with one or more self-limited length scales. An undesirable feature of systems with self-limited length scales is that thermal fluctuations can lead to the assembly of nearby, off-target states. We investigate strategies for limiting off-target assembly by using multiple types of subunits. Using simulations and energetics calculations, we explore this concept by considering the assembly of tubules built from triangular subunits that bind edge to edge. While in principle, a single type of triangle can assemble into tubules with a monodisperse width distribution, in practice, the finite bending rigidity of the binding sites leads to the formation of off-target structures. To increase the assembly specificity, we introduce tiling rules for assembling tubules from multiple species of triangles. We show that the selectivity of the target structure can be dramatically improved by using multiple species of subunits, and provide a prescription for choosing the minimum number of subunit species required for near-perfect yield. Our approach of increasing the system's complexity to reduce the accessibility of neighboring structures should be generalizable to other systems beyond the self-assembly of tubules.
Comment: Main text 10 pages and 6 figures, SI 12 pages and 10 figures
Databáze: OpenAIRE